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python-itho-wpu/itho-wpu.py

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#!/usr/bin/env python3
import argparse
import i2c_raw
import logging
import pigpio
import queue
import sys
import time
import os
import datetime
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from collections import namedtuple
consolelogformatter = logging.Formatter("%(asctime)-15s %(levelname)s: %(message)s")
logger = logging.getLogger('stdout')
logger.setLevel(logging.INFO)
stdout_log_handler = logging.StreamHandler(sys.stdout)
stdout_log_handler.setFormatter(consolelogformatter)
logger.addHandler(stdout_log_handler)
def export_to_influxdb(action, measurements):
from influxdb import InfluxDBClient
influx_client = InfluxDBClient(
host=os.getenv('INFLUXDB_HOST', 'localhost'),
port=os.getenv('INFLUXDB_PORT', 8086),
username=os.getenv('INFLUXDB_USERNAME', 'root'),
password=os.getenv('INFLUXDB_PASSWORD', 'root'),
database=os.getenv('INFLUXDB_DATABASE')
)
json_body = [
{
"measurement": action,
"time": datetime.datetime.utcnow().replace(microsecond=0).isoformat(),
"fields": measurements,
}
]
try:
influx_client.write_points(json_body)
except Exception as e:
print('Failed to write to influxdb: ', e)
actions = {
"getnodeid": [0x90, 0xE0],
"getserial": [0x90, 0xE1],
"getdatatype": [0xA4, 0x00],
"getdatalog": [0xA4, 0x01],
}
def parse_args():
parser = argparse.ArgumentParser(description='Itho WPU i2c master')
parser.add_argument('--action', nargs='?', required=True,
choices=actions.keys(), help="Execute an action")
parser.add_argument('--loglevel', nargs='?',
choices=["debug", "info", "warning", "error", "critical"],
help="Loglevel")
parser.add_argument('--master-only', action='store_true', help="Only run I2C master")
parser.add_argument('--slave-only', action='store_true', help="Only run I2C slave")
parser.add_argument('--slave-timeout', nargs='?', type=int, default=60,
help="Slave timeout in seconds when --slave-only")
parser.add_argument('--export-to-influxdb', action='store_true',
help="Export results to InfluxDB")
args = parser.parse_args()
return args
class I2CSlave():
def __init__(self, address, queue):
self.address = address
self.queue = queue
self.pi = pigpio.pi()
if not self.pi.connected:
logger.error("not pi.connected")
return
def set_callback(self):
logger.debug("set_callback()")
self.event_callback = self.pi.event_callback(pigpio.EVENT_BSC, self.callback)
self.pi.bsc_i2c(self.address)
def callback(self, id, tick):
logger.debug(f"callback({id}, {tick})")
s, b, d = self.pi.bsc_i2c(self.address)
result = None
if b:
logger.debug(f"Received {b} bytes! Status {s}")
result = [hex(c) for c in d]
logger.debug(f"Callback Response: {result}")
if self.is_checksum_valid(result) and self.is_length_valid(result):
self.queue.put(result)
else:
logger.debug(f"Received number of bytes was {b}")
def is_checksum_valid(self, b):
s = 0x80
for i in b[:-1]:
s += int(i, 0)
checksum = 256 - (s % 256)
if checksum == 256:
checksum = 0
if checksum != int(b[-1], 0):
logger.debug(f"Checksum invalid (0x{checksum:02x} != {b[-1]})")
return False
return True
def is_length_valid(self, b):
length_in_msg = int(b[4], 0)
actual_length = len(b) - 6
if length_in_msg != actual_length:
logger.debug(f"Length invalid ({length_in_msg} != {actual_length})")
return False
return True
def close(self):
self.event_callback.cancel()
self.pi.bsc_i2c(0)
self.pi.stop()
class I2CMaster:
def __init__(self, address, bus, queue):
self.i = i2c_raw.I2CRaw(address=address, bus=bus)
self.queue = queue
def compose_request(self, action):
# 0x80 = source, 0x04 = msg_type, 0x00 = length
request = [0x80] + actions[action] + [0x04, 0x00]
request.append(self.calculate_checksum(request))
return request
def calculate_checksum(self, request):
s = 0x82
for i in request:
s += i
checksum = 256 - (s % 256)
if checksum == 256:
checksum = 0
return checksum
def execute_action(self, action):
request = self.compose_request(action)
result = None
for i in range(0, 20):
logger.debug(f"Executing action: {action}")
self.i.write_i2c_block_data(request)
time.sleep(0.21)
logger.debug("Queue size: {}".format(self.queue.qsize()))
if self.queue.qsize() > 0:
result = self.queue.get()
break
if result is None:
logger.error(f"No valid result in 20 requests")
return result
def close(self):
self.i.close()
def is_messageclass_valid(action, response):
if int(response[1], 0) != actions[action][0] and int(response[2], 0) != actions[action][1]:
logger.error(f"Response MessageClass != {actions[action][0]} {actions[action][1]} "
f"({action}), but {response[1]} {response[2]}")
return False
return True
def process_response(action, response, args):
if int(response[3], 0) != 0x01:
logger.error(f"Response MessageType != 0x01 (response), but {response[3]}")
return
if not is_messageclass_valid(action, response):
return
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if action == "getdatalog":
measurements = process_datalog(response)
if args.export_to_influxdb:
export_to_influxdb(action, measurements)
elif action == "getnodeid":
process_nodeid(response)
elif action == "getserial":
process_serial(response)
def process_nodeid(response):
hardware_info = {
0: {
"name": "HCCP",
"type": {
13: "WPU",
15: "Autotemp",
}
}
}
manufacturergroup = ((int(response[5], 0) << 8) + int(response[6], 0))
manufacturer = hardware_info[int(response[7], 0)]["name"]
hardwaretype = hardware_info[int(response[7], 0)]["type"][int(response[8], 0)]
productversion = int(response[9], 0)
listversion = int(response[10], 0)
logger.info(f"ManufacturerGroup: {manufacturergroup}, Manufacturer: {manufacturer}, "
f"HardwareType: {hardwaretype}, ProductVersion: {productversion}, "
f"ListVersion: {listversion}")
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def process_serial(response):
serial = (int(response[5], 0) << 16) + (int(response[6], 0) << 8) + int(response[7], 0)
logger.info(f"Serial: {serial}")
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def process_datalog(response):
# 0 = Byte
# 1 = UnsignedInt
# 2 = SignedIntDec2
Field = namedtuple('Field', 'index type label description')
datalog = [
Field(0, 0x92, "t_out", "Buitentemperatuur"),
Field(2, 0x92, "t_boiltop", "Boiler laag"),
Field(4, 0x92, "t_boildwn", "Boiler hoog"),
Field(6, 0x92, "t_evap", "Verdamper temperatuur"),
Field(8, 0x92, "t_suct", "Zuiggas temperatuur"),
Field(10, 0x92, "t_disc", "Persgas temperatuur"),
Field(12, 0x92, "t_cond", "Vloeistof temperatuur"),
Field(14, 0x92, "t_source_r", "Naar bron"),
Field(16, 0x92, "t_source_s", "Van bron"),
Field(18, 0x92, "t_ch_supp", "CV aanvoer"),
Field(20, 0x92, "t_ch_ret", "CV retour"),
Field(22, 0x92, "p_sens", "Druksensor (Bar)"),
Field(24, 0x92, "i_tr1", "Stroom trafo 1 (A)"),
Field(26, 0x92, "i_tr2", "Stroom trafo 2 (A)"),
Field(34, 0x10, "in_flow", "Flow sensor bron (l/h)"),
Field(37, 0x0, "out_ch", "Snelheid cv pomp (%)"),
Field(38, 0x0, "out_src", "Snelheid bron pomp (%)"),
Field(39, 0x0, "out_dhw", "Snelheid boiler pomp (%)"),
Field(44, 0xc, "out_c1", "Compressor aan/uit"),
Field(45, 0xc, "out_ele", "Elektrisch element aan/uit"),
Field(46, 0xc, "out_trickle", "Trickle heating aan/uit"),
Field(47, 0xc, "out_fault", "Fout aanwezig (0=J, 1=N)"),
Field(48, 0xc, "out_fc", "Vrijkoelen actief (0=uit, 1=aan)"),
Field(51, 0x92, "ot_room", "Kamertemperatuur"),
Field(55, 0x0, "ot_mod", "Warmtevraag (%)"),
Field(56, 0x0, "state", "State (0=init,1=uit,2=CV,3=boiler,4=vrijkoel,5=ontluchten)"),
Field(57, 0x0, "sub_state", "Substatus (255=geen)"),
Field(67, 0x0, "fault_reported", "Fout gevonden (foutcode)"),
Field(92, 0x10, "tr_fc", "Vrijkoelen interval (sec)"),
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]
message = response[5:]
measurements = {}
for d in datalog:
if d.type == 0x0 or d.type == 0x12 or d.type == 0xc:
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m = message[d.index:d.index+1]
num = int(m[0], 0)
elif d.type == 0x10:
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m = message[d.index:d.index+2]
num = ((int(m[0], 0) << 8) + int(m[1], 0))
elif d.type == 0x92:
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m = message[d.index:d.index+2]
num = ((int(m[0], 0) << 8) + int(m[1], 0))
if num >= 32768:
num -= 65536
num = round(num / 100, 2)
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logger.info(f"{d.description}: {num}")
measurements[d.label] = num
return measurements
if __name__ == "__main__":
args = parse_args()
if args.loglevel:
logger.setLevel(args.loglevel.upper())
q = queue.Queue()
if not args.master_only:
slave = I2CSlave(address=0x40, queue=q)
slave.set_callback()
if args.slave_only:
time.sleep(args.slave_timeout)
if not args.slave_only:
master = I2CMaster(address=0x41, bus=1, queue=q)
if args.action:
result = master.execute_action(args.action)
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logger.debug(f"Response: {result}")
master.close()
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if result is not None:
process_response(args.action, result, args)
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if not args.master_only:
slave.close()